DE371438C - Roller bearings - Google Patents

Description

Roller bearings ... It has already been proposed to use roller bearings several conical running surfaces in such a way that the rollers .aller Sets have the same diameter. The subject of the invention is such Roller bearing: in which not only the rollers, but 4u04 dlie yersei.ed'enen running surfaces pa-arvveis, e have the same diameter. This arrangement allows a larger Number of running surfaces to be attached without thereby affecting the diameter of the bearing that is exaggeratedly large or small on one side. The arrangement also asked him Advantage that all the running surfaces are single, for example from Sheet metal, can be manufactured and assembled into a bearing in any number can be, whereby the production of the treads extremely simplified and is cheaper.

The readjustment takes place continuously with your roller bearing according to the invention instead of in a manner known per se by means of a spring. This is according to the invention arranged on the outside or inside of the bearing, ivodu, rdh a low Overall length of the bearing is achieved. The running surfaces W> can be stepped so that they have the opposite inclination in one half of the camp as in that others, so that so, Lager read the shoe in both directions of the bearing axis. In @lieseni case, the springs are arranged in such a way (let them match the conical surfaces of the pull one side against the conical surfaces on the other side.

In the drawings: Fig. I is a longitudinal section through a bearing that can absorb an axial thrust in both directions, Figure 2 shows a longitudinal section by a bearing, the parts of which are made of: sheet metal. Fig. 3 and d. are Longitudinal sections through a very short bearing that has both a radial Can absorb load as well as the longitudinal thrust in both directions.

Fig. 5 is a detail.

The roller bearings according to the invention can be used anywhere where A shaft running under heavy load is finitely supported with very little friction shall be.

It should be noted that the bearing according to the invention was carried out in various ways A: banding can be adapted to various purposes, and that its construction is not limited to the drawn embodiments.

Fig. I shows an embodiment of the subject matter of the invention. Of the inner bearing part consists of any number of narrow conical surfaces 18, 19, 20 and 21, which all have the same diameter and cone angle; u and conical Treads for the various. Form roll sets 22, 23, 2.4 and 25. The outer one Bearing part consists of conical sections 26, 27, 28 and 29 of the same diameter and cone angles on which the outer sides of the roller sets 22, 23, 24 and 25 to run. All rollers are cylindrical and have the same diameter. This in <The bearing shown in the nasty figure is not only suitable for radial loads, but also absorbs the axial thrust in both directions. To this end the arrangement is made that dig conical surfaces of the inner and outer bearing parts 18, 19, 26 and 27 have their apex on one side and the conical parts 2o, 21, 28 and 29 have their apex on the other side of the camp.

The sections forming the inner bearing part are preferably permanently connected to one another. For which purpose a sleeve 30 is arranged, onto which the inner bearing parts are pushed, and on which they are held by flanges at the ends. The sections that form the outer bearing are permanently connected by two fragrant 31, 31. which enclose the parts and they are flanged to their interior. Hold the butting ends together in pairs. To automatically compensate for the dead gear or the wear and tear on the bearing parts and the grooves, the sleeves 31, 31 are made of a sleeve 32 which is expandable in its longitudinal direction and which, together with the flanges, attach to the outer egg-len of the air ducts 31, 31. The sleeve 31 consists of a strip of flat, resilient material. which is wound in a helical manner, and the ends of which lie against the flanges rler: sockets 3i, 31 and pull them apart together with the -r_ti, # belonging bearing parts 26, 27 on the one hand, l 28, 29 on the other hand, <<. e with them automatically compensate for the dead gear or the wear and tear that occurred between the T, j. ""<; To guide and hold back the pollen in -1e: 7 bearings, a cage consisting of two grooves 33 and 3.1 is attached, which closes the furthest outward roller sets. These rings are connected by spacers 34 ″ which keep them at the correct distance from one another and keep free space for the rollers.

In Fig. 3 and .I T_a "er of very short length are shown, which sojivolil absorb a radial load as well as acbs @ ial thrust in both directions. In these cases, the bearing consists of an inner bearing part 52 in it mutually inclined conical surfaces 53 and 54 as well as an outer bearing part, which is composed of two sections 55 and 5 <. The conical bearing surface 57 of the part 55 runs at the same angle as the I-agerfläclie 5.I of the inner bearing part and is correspondingly conical, i: ge bearing surface 58 of the section @tii at the same angle as the conical surface 53 of this inner one. Between the bearing parts, a number of rollers 59 are inserted, some of which are on the bearing surfaces 5-t and 57 and the rest runs on the bearing surfaces 53 and 58. The sections forming the outer bearing surfaces are kept continuously in contact with the rollers by a device consisting of a sleeve 6 placed around them o with inwardly bent edges and a helical spring 61, which the latter is inserted between one of the bearing parts (in the illustrated embodiment the section 55) and the surrounding sleeve 6o.

According to the invention, the roller bearing can be made entirely of sheet metal, which makes its cost very low. An exemplary embodiment of such a bearing is shown in FIG. This bearing consists iau @ s of a corresponding number of outer conical bearing surfaces 62, 63 and 64 Urlid an, em inner bearing part, which is composed of conical sections 65, 66 and 67, etzt. These conical sections are .derartig waste in einiand: ergesteckt that they form pairs of conical contact surfaces that extend at the same angle. Sets of cylindrical rollers 68, 69 and 7o are inserted between the individual pairs of the inner and outer bearing surfaces. The strength of these rollers in the axial direction is smaller: smaller than their diameter. Through the interlocking of the inner @ resp. outer conical bearing surfaces, protruding edges formed serve for the lateral guidance of the rollers. The rollers can also be made from sheet metal. Its cylindrical outer surface is produced by bending the edge of a sheet metal disc upright and the edge is flanged approximately inwards. The nested inner ones. or outer conical, bearing surfaces are held together by an inner and outer sleeve 71 and 72, the edges of which are folded inwards in the manner shown. The roller sets are guided in a cage, which consists of annular end disks 73 and 74 and the same: preventing bolts 75 . The cone-shaped bearing surfaces and rollers are sufficiently precise and level in this production line. Since the thickness of the sheet metal is the same in almost all places, the resistance of the rollers in the various areas is also the same Diameter almost the same. Rollers resilient in the radial direction can be used. In this sense, the rolls made from sheet metal have the necessary flexibility. In the manufacture of the bearings from sheet metal, the costly process of cutting out the running surfaces and the rolls is eliminated from the solid metal, as well as hardening and grinding. In the case of the bearing shown in Fig. 2, there is also a resilient sleeve 10 in the manner of the spring 32 shown in Fig.

In each of the constructions shown, the conical Bearing parts have the same angle and diameter, while the rollers are cylindrical and also all have the same diameter, so that they coincide with the move at the same speed and make all the same number of revolutions do. As a result, only one cage is required for each layer, in the manner shown, made of sheet metal or any other design lift lmnn. Find all the embodiments presented, within, . of the roller cage no twisting takes place, as is often the case with other layers occur where the movement of the rollers is unfavorable. The webs 3e b75-W- 75 of the roller cages consist, as Fig. 5 shows, of stud bolts 5o attached to them Sheets 48, the latter are cut out in such a stepped manner that they Keep the rolls of each sentence at the correct distance from each other.

Claims (4)

PATENT CLAIMS: i. Roller bearings with several arranged in pairs wedge-shaped bearing surfaces, between .denen there are cylindrical rollers, the; through this characterized in that each of the bearing surfaces of the one pair has an equal diameter has like the corresponding bearing surfaces. of the other pairs, and that all roles have the same diameter. 2. roller bearing according to claim i, characterized; d @ ate the running surfaces (62 to 67) consist of individual nested rings. 3. Rüllen1-ager according to claim i, because-. Characterized by @, @ d @ aß 'the bearing shells by a helical spring arranged on the inside and outside of the bearing (io, 61, 32) are compressed. 4. Rallienläger according to claim i, 2 or 3 with termination # sheets, which are connected to one another by longitudinal strips, .thereby , characterized in that the cutouts in the longitudinal strips (34d, 75) are stepped are arranged so that they keep the rollers at the correct distance from each other.